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Rebekah S. Rasooly, Ph.D. NINR/NIH. GRANT WRITING FOR SUCCESS. Overview. Start planning early Apply for the right opportunities Contact appropriate program staff early Talk with potential mentors, collaborators, & peers – seek advice from colleagues
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Rebekah S. Rasooly, Ph.D. NINR/NIH GRANT WRITING FOR SUCCESS
Overview • Start planning early • Apply for the right opportunities • Contact appropriate program staff early • Talk with potential mentors, collaborators, & peers – seek advice from colleagues • Present your ideas clearly and pay attention to review criteria • What to do after review
The grant life-cycle Start planning your application early
Use NIH resources for help http://grants.nih.gov
Use NIH resources for help http://grants.nih.gov
Pre-submission planning timeline Submitting Planning Writing Months Prior 8 7 6 5 4 3 2 1 mo. Assess yourself, field, & resources Receipt Date Outline application structure; write your application Set up own review committee; determine human & animal subject requirements Meet institutional deadlines Brainstorm; research idea; call NIH staff Get feedback; edit & proofread
Overview • Start planning early • Apply for the right opportunities • Contact appropriate program staff early • Talk with potential mentors, collaborators, & peers – seek advice from colleagues • Present your ideas clearly and pay attention to review criteria • What to do after review
Let NIH Reporter help you find similar work, appropriate IC and study section http://projecteporter.nih.gov
Use the NIH Guide to find funding opportunities • Learn our jargon: • Request for Applications (RFA) – set aside funds, one submission date, special review panel • Program Announcements (PA, PAR, PAS) • “Parent” announcements—investigator-initiated; mechanism specific R01, R03, R15, R21
Or use our tool to find opportunities for your career stage • https://grants.nih.gov/grants/funding/funding_program.htm
Are you a new investigator (NI), an early stage investigator (ESI)? • Pertains to R01 applications • NI - never has been awarded a R01 • ESI – never been awarded a R01 and is within 10 years of terminal degree • Does it make a difference? YES! • In a study section, NI and ESI R01 applications are clustered and reviewed together • At the institute level, new investigator applications have a preferential ‘payline’ (either all NI’s or just ESI’s, depending on the institute)
R21 and R03 applications Not every IC accepts these funding mechanisms!!!! • R21 – 2 years for a total of $275,000 • ‘High-risk, high-reward’ • Paradigm shifting • Create a new tool/model for the community • Not a ‘mini’ R01 • R03 – 2 years for $50,000/year These can be used obtain preliminary data and then write a R01
Finding the right opportunity - summary • Use NIH Websites and tools, like NIH Reporter, to understand the mission of NIH Institutes and Centers and find those that might be relevant to your research • Use the NIH Guide or the career stage-specific Websites to identify appropriate Funding Opportunity Announcements (FOA)
Overview • Start planning early • Apply for the right opportunities • Contact appropriate program staff early • Talk with potential mentors, collaborators, & peers – seek advice from colleagues • Present your ideas clearly and pay attention to review criteria • What to do after review
Know your PO, SRO, and GS • Program Officer (PO) • Works in a particular institute • Manages a scientific research portfolio of grants, contracts, and cooperative agreements • Scientific Review Officer (SRO) • Typically works in CSR but also within institutes • Helps ensure that the scientific review group (study section) identifies the most meritorious science for potential funding • Grants Management Specialist/Officer (GS/GMO) • Works in a particular institute; Evaluates applications for administrative content and compliance with policy
What does a Program Official do? • Scientist and administrator • Manages grants, contracts, & cooperative agreements • Identifies needs in scientific areas • Identifies areas of special interest & communicates program priorities • Reports on scientific progress and program accomplishments • Government’s technical representative for funded projects • a.k.a. Program Director/Chief, Health Scientist Administrator
What should I talk about with a Program Official? • Provide a thumbnail sketch of what you have in mind • Ask whether the idea fits the Institute’s interests • Get information from on FOAs • Find out what kinds of grant mechanisms can be used and whether there any priorities for those mechanisms • Ask if the PO is willing to look over a very brief outline of the proposed project or draft specific aims to get general advice • Email to set up a time to discuss, but remember that this is advice, not a review, and you have no obligation to follow the advice given • POs are not allowed to participate in developing or writing grant proposals
Identify appropriate NIH program directors • Start with NIH RePORTER and see what research projects the NIH or any Institute has funded that are similar to yours • Then find the Program Official in the “Details” tab
Contacting NIH program staff - summary • Use Reporter or other NIH Websites to identify program directors relevant to your research • Contact the program director early in the planning process to get advice about your application and funding opportunities
Overview • Start planning early • Apply for the right opportunities • Contact appropriate program staff early • Talk with potential mentors, collaborators, & peers – seek advice from colleagues • Present your ideas clearly and pay attention to review criteria • What to do after review
Collaborate with others • Collaborate with others • In your department • In other departments • Network at meetings • Stay connected to past colleagues and mentors • Cultivate a strong network that understands the funding process
Find collaborators for your application • Determine the expertise needed to strengthen your research study team and fill gaps in your own expertise • Begin to assemble the research study team early and obtain letters of commitment from them • Consider a multiple project director/principal investigator model if a team science approach would be more effective for your work (but this is a complex decision that you should discuss with a Program Director first!)
Ask colleagues to read your application • Show your draft application to: • Your collaborators • A colleague that does not know what you intend to do • Someone who is not your best friend • Draft “reviewers” must understand: • What you intend to do • Why you believe it is important to do • Exactly how you’re going to do it. If they don’t get it, you must revise your application!
Seek advice from colleagues - summary Appropriate collaborators can strengthen your proposal Colleagues can read your application before you submit it
Overview • Start planning early • Apply for the right opportunities • Contact appropriate program staff early • Talk with potential mentors, collaborators, & peers – seek advice from colleagues • Present your ideas clearly and pay attention to review criteria • What to do after review
General grant-writing tips • Read instructions for application form • Be realistic … not overly ambitious • Discuss potential problem areas and possible solutions • Be explicit • Reviewers cannot read your mind! • Don’t expect reviewers to read between the lines • Don’t assume they know what you intend!
What reviewers look for in an application? • A clean, well-written, easy to follow application • Significance and impact • A strong premise leading to exciting ideas • Clarity of the project’s rationales and goals • Realistic aims and timelines • Rigorous experimental approaches • Discussion of limitations of the study • Reasonable alternatives
Your hypothesis (or hypotheses) is the basis of a strong application Develop a Strong Research Plan • Make sure that the hypothesis thematically unifies the abstract, specific aims, and the research plan • It must be solidly based on current information. • It must convey the significance of the project • It should be clear • Not so good: “we hypothesize that Chronic Kidney Disease causes cardiovascular disease and early mortality” • Better: “we predict that individuals with CKD are more susceptible to the development of atherosclerosis due to uremic solutes directly activating macrophages and promoting inflammation-induced plaque deposition”
Specific Aims Develop a Strong Research Plan • This one page grabs the reader immediately, and also gives you a roadmap for your application • Begin with an overall section • State general purpose • Include some key supporting data • State the hypothesis • State long-term objectives and expected impact • Organize the aims in a sequential, numeric format • Tell reviewers what the results will mean!
Develop a Strong Research Plan Significance • Why is this research important? • Shows your understanding of the overall field • Demonstrates that your questions are novel and important and represent a logical next step in research • Do not write a review article; instead highlight critical gaps that will be addressed by the proposed research • Graphics can be helpful
Develop a Strong Research Plan Innovation • Show that proposed research is new and unique • Either: • Show how the proposed research would refine, improve, or propose a new application of an existing concept or method. • Or show how the research would shift a current paradigm. • Make a very strong case for challenging the existing paradigm. • Have data to support the innovative approach
Approach: Preliminary Studies Develop a Strong Research Plan • If you are applying for a new application, include preliminary studies • Your preliminary studies show availability of key resources, familiarity with the proposed methods and approach to interpreting results • If the data are pertinent to only one Aim, include it in this Aim. If the data are generally relevant, include a section at the beginning of Approach before describing individual aims • Include a progress report if you are applying for a renewal or a revision (competitive supplement)
Approach Develop a Strong Research Plan • Does your plan flow logically from the literature review and prior studies? • How will each hypothesis be tested? • Do your measures capture the variables needed to test hypotheses? • Why did you choose those measures? • Methods and analyses must match • Consider organizing each aim the same way, including the: • Rationale • Experimental approach • Anticipated results • Alternative approaches/pitfalls
Approach- Clinical Studies Develop a Strong Research Plan • For clinical studies, including information in the Research Strategy section about: • overall strategy • methodology • Analyses • Detailed study information belongs in the Human Subjects and Clinical Trials Information form
Align your application with the Review Criteria • Overall Impact • Core Review Criteria • Significance • Investigator • Innovation • Approach • Environment
What is the overall impact of an application? • Two questions drive reviewer determination about the likelihood that the proposed studies will have a strong and sustained impact on the scientific field • Should they do it? • Can they do it? • The overall impact is NOT mathematically related to individual criteria scores.
Core Review Criterion #1 SIGNIFICANCE (Should they do it?) • Does this study address an important problem? • If the aims are achieved, how will scientific knowledge be advanced? • What will be the effect on concepts or methods that drive this field?
Core Review Criterion #1 (cont.) SIGNIFICANCE (Should they do it?) • Rigor of the prior research (formerly ‘scientific premise’) is part of the review criteria • Consideration of the strengths and weaknesses of published research or preliminary data crucial to the support of the application • Distinct from hypothesis • Assessed as part of the Significance criterion
Core Review Criterion #2 INVESTIGATOR (Can they do it?) • Are the investigators appropriately trained and well suited to carry out this work? • Is the work proposed appropriate to the experience level of the principal investigator and other researchers? • Does the investigative team bring complementary and integrated expertise to the project (if applicable)? Tip: use the Biosketch to explain your major contributions or any mitigating circumstances that ‘slowed’ your progress
Core Review Criterion #3 INNOVATION (Should they do it?) • Does the application challenge and seek to shift current research or clinical practice paradigms? • Are the concepts, approaches or methodologies, instrumentation, or interventions novel to one field of research or novel in a broad sense? • Is a refinement, improvement, or new application of theoretical concepts, approaches or methodologies, instrumentation, or interventions proposed?
Core Review Criterion #4 APPROACH (Can they do it?) • Are the conceptual framework, design, methods, and analyses adequately developed, well-integrated, and appropriate to the aims of the project? • Does the applicant acknowledge potential problem areas and consider alternatives? • Have the investigators presented adequate plans to address relevant biological variables for studies in vertebrate animals or human subjects, e.g., sex?
Core Review Criterion #4 APPROACH (Can they do it?) • Rigor is now formalized in the stated review criteria • Rigor is defined as ‘strict application of the scientific method to ensure robust and unbiased experimental design, methodology, analysis, interpretation and reporting of results.’ • Provide confidence that the research can be reproduced • Consideration of confounding variables, e.g., sex as a biological variable
Core Review Criterion #5 ENVIRONMENT (Can they do it?) • Does the scientific environment in which the work will be done contribute to the probability of success? • Do the proposed experiments take advantage of unique features of the scientific environment or employ useful collaborative arrangements? • Is there evidence of institutional support?
Other review considerations These sections are also essential: • Human subjects and inclusion of both genders/minorities/across the lifespan • Animal care and use – address all five points • Select agents/biohazards • Model organism sharing plan • Data sharing plan • Authentication of Key Biological Resources The FOA will list any additional issues that reviewers will be asked to evaluate.
Hallmarks of an outstanding grant application • Strong significance for an important problem in public health: IMPACT is high • High degree of novelty and innovation • Strong track record of a well qualified applicant with compelling publications • Clear rationale • Relevant and supportive preliminary data • Clear and focused approach that provides unambiguous results • Careful attention to details • Spelling, punctuation, grammar, fonts, clarity of data, error bars, spelling, etc.
Common reasons cited for a weak application • Lack of or weak impact – avoid ‘descriptive’ or ‘incremental’ projects • Too ambitious, lacking focus, too many unrelated aims • Unclear or flawed hypothesis or rationale • Applicant track record weak or lacking appropriate expertise • Feasibility unsupported; do not assume that the reviewers are as familiar with the subject as you are • Approach flawed; assuming that everything will work perfectly and leaving out discussion of pitfalls and alternative approaches • Poor writing and lots of errors; small figures and densely packed text.
Overview • Start planning early • Apply for the right opportunities • Contact appropriate program staff early • Talk with potential mentors, collaborators, & peers – seek advice from colleagues • Present your ideas clearly and pay attention to review criteria • What to do after review
After the review • Read the summary statement (don’t take it personally!) • Reread the summary statement • Contact your program officer and be prepared to discuss: • what the reviewers said about your application (after you have summary statement) • Scores and percentiles • the likelihood of funding • the prospects of a revised application • Wait for the AWARD, or • Listen to advice from Program Officer about options
Summary Statement https://www.niaid.nih.gov/sites/default/files/1-R01-AI121500-01A1_Gordon_Summary-Statement.pdf